/* * CIA.h - 6526 emulation * * Frodo (C) 1994-1997,2002 Christian Bauer */ #ifndef _CIA_H #define _CIA_H #include "Prefs.h" class MOS6510; class MOS6502_1541; class MOS6569; struct MOS6526State; class MOS6526 { public: MOS6526(MOS6510 *CPU); void Reset(void); void GetState(MOS6526State *cs); void SetState(MOS6526State *cs); #ifdef FRODO_SC void CheckIRQs(void); void EmulateCycle(void); #else void EmulateLine(int cycles); #endif void CountTOD(void); virtual void TriggerInterrupt(int bit)=0; protected: MOS6510 *the_cpu; // Pointer to 6510 uint8 pra, prb, ddra, ddrb; uint16 ta, tb, latcha, latchb; uint8 tod_10ths, tod_sec, tod_min, tod_hr; uint8 alm_10ths, alm_sec, alm_min, alm_hr; uint8 sdr, icr, cra, crb; uint8 int_mask; int tod_divider; // TOD frequency divider bool tod_halt, // Flag: TOD halted ta_cnt_phi2, // Flag: Timer A is counting Phi 2 tb_cnt_phi2, // Flag: Timer B is counting Phi 2 tb_cnt_ta; // Flag: Timer B is counting underflows of Timer A #ifdef FRODO_SC bool ta_irq_next_cycle, // Flag: Trigger TA IRQ in next cycle tb_irq_next_cycle, // Flag: Trigger TB IRQ in next cycle has_new_cra, // Flag: New value for CRA pending has_new_crb; // Flag: New value for CRB pending char ta_state, tb_state; // Timer A/B states uint8 new_cra, new_crb; // New values for CRA/CRB #endif }; class MOS6526_1 : public MOS6526 { public: MOS6526_1(MOS6510 *CPU, MOS6569 *VIC); void Reset(void); uint8 ReadRegister(uint16 adr); void WriteRegister(uint16 adr, uint8 byte); virtual void TriggerInterrupt(int bit); uint8 KeyMatrix[8]; // C64 keyboard matrix, 1 bit/key (0: key down, 1: key up) uint8 RevMatrix[8]; // Reversed keyboard matrix uint8 Joystick1; // Joystick 1 AND value uint8 Joystick2; // Joystick 2 AND value private: void check_lp(void); MOS6569 *the_vic; uint8 prev_lp; // Previous state of LP line (bit 4) }; class MOS6526_2 : public MOS6526{ public: MOS6526_2(MOS6510 *CPU, MOS6569 *VIC, MOS6502_1541 *CPU1541); void Reset(void); uint8 ReadRegister(uint16 adr); void WriteRegister(uint16 adr, uint8 byte); virtual void TriggerInterrupt(int bit); uint8 IECLines; // State of IEC lines (bit 7 - DATA, bit 6 - CLK, bit 4 - ATN) private: MOS6569 *the_vic; MOS6502_1541 *the_cpu_1541; }; // CIA state struct MOS6526State { uint8 pra; uint8 ddra; uint8 prb; uint8 ddrb; uint8 ta_lo; uint8 ta_hi; uint8 tb_lo; uint8 tb_hi; uint8 tod_10ths; uint8 tod_sec; uint8 tod_min; uint8 tod_hr; uint8 sdr; uint8 int_data; // Pending interrupts uint8 cra; uint8 crb; // Additional registers uint16 latcha; // Timer latches uint16 latchb; uint8 alm_10ths; // Alarm time uint8 alm_sec; uint8 alm_min; uint8 alm_hr; uint8 int_mask; // Enabled interrupts }; /* * Emulate CIA for one cycle/raster line */ #ifdef FRODO_SC inline void MOS6526::CheckIRQs(void) { // Trigger pending interrupts if (ta_irq_next_cycle) { ta_irq_next_cycle = false; TriggerInterrupt(1); } if (tb_irq_next_cycle) { tb_irq_next_cycle = false; TriggerInterrupt(2); } } #else inline void MOS6526::EmulateLine(int cycles) { unsigned long tmp; // Timer A if (ta_cnt_phi2) { ta = tmp = ta - cycles; // Decrement timer if (tmp > 0xffff) { // Underflow? ta = latcha; // Reload timer if (cra & 8) { // One-shot? cra &= 0xfe; ta_cnt_phi2 = false; } TriggerInterrupt(1); if (tb_cnt_ta) { // Timer B counting underflows of Timer A? tb = tmp = tb - 1; // tmp = --tb doesn't work if (tmp > 0xffff) goto tb_underflow; } } } // Timer B if (tb_cnt_phi2) { tb = tmp = tb - cycles; // Decrement timer if (tmp > 0xffff) { // Underflow? tb_underflow: tb = latchb; if (crb & 8) { // One-shot? crb &= 0xfe; tb_cnt_phi2 = false; tb_cnt_ta = false; } TriggerInterrupt(2); } } } #endif #endif